JP4710178B2 - Wireless heat sensor transmitter - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a heat ray detection unit that collects heat rays radiated from a human body or the like through a heat ray condensing means and detects a human body, and a signal processing unit that converts an output of the heat ray detection unit into a wireless signal and transmits the signal. And improvement of a wireless heat ray sensor transmitter including a battery as a power source.
[0002]
[Prior art]
As a wireless hot wire sensor transmitter as described above, for example, it is disclosed as Japanese Patent Laid-Open No. 2001-126155. This wireless heat ray sensor transmitter 100 has been filed by the present applicant, and as shown in FIG. 8, a heat ray detection unit 102, a signal processing unit 103, and a battery 104 are provided inside a long main body case 101. Contained and configured. In this case, the heat ray detection unit 102 having two pyroelectric elements 106 and 106, and the signal processing unit 103 that converts the output from the heat ray detection unit 102 into a radio signal that is a wireless signal and transmits the signal are a circuit. The circuit board 107 is disposed on the substrate 107 and is fixed to the long main body case 101. The main body case 101 is provided with a battery cover 105 for attaching the battery 104 to a part of the side surface.
[0003]
As shown in FIG. 9, the main body case 101 is held so that both ends in the longitudinal direction are fitted to a fixture 108 fixed to a wall surface or the like so as to be rotatable about the longitudinal axis. The fixture 108 is provided with protruding pieces 110 on both ends of a substantially plate-like base body 109 for rotating the body case 101 about the longitudinal axis (A) and fixing it at an appropriate angle. An attachment hole (not shown) for fixing to the wall surface is formed inside 109. The main body case 101 and the fixture 108 are entirely covered with a cover 111 made of polyethylene resin that transmits heat rays for reasons such as beauty.
[0004]
The wireless heat ray sensor transmitter 100 is installed at the upper part of an opening of a building such as a window, and is effectively used as a simple security sensor transmitter for detecting and reporting that a person has approached the opening. . That is, when it is detected that a person is present in the opening or substantially downward direction thereof, the above-described radio signal can be transmitted to notify the person in a remote place of the state.
[0005]
Further, in this case, the main body case 101 is provided with a recess on the main body case 101 side, and convex pieces (both not shown) are provided at both ends of the fixture 108, and is rotated with an appropriate click feeling to be appropriately positioned. Can be fixed. Therefore, it is possible to adjust the detection area with a simple structure and it is easy to use. Further, by comparing and calculating the detection outputs from the two pyroelectric elements 106 and 106, transmission of radio signals due to detection of a small animal or the like that passes under the opening is substantially reduced. I am doing so.
[0006]
[Problems to be solved by the invention]
However, in the above prior art, since the main body case 101 is sandwiched from both ends in the longitudinal direction by the sandwiching pieces 110 of the fixture 108, the overall length becomes long and the wireless heat ray sensor transmitter becomes large. Further, in order to conceal the structure to be rotatable and to make it inconspicuous, it is necessary to cover the whole with the cover 111.
[0007]
Further, the heat ray detection unit 102 is provided on the plate-like circuit board 107, and a plate-like lens serving as a heat ray condensing means is provided on the main body case 101. In terms of use, the overall structure becomes complicated and the number of parts increases. Accordingly, there is a problem that the cost is increased.
[0008]
The present invention has been made in view of the above-mentioned reasons, and an object of the present invention is to provide a wireless heat ray sensor transmitter that has a simple structure and a detection area adjustment function with a reduced overall shape. .
[0009]
[Means for Solving the Problems]
To achieve the above object, in the wireless hot wire sensor transmitter of the present invention, a heat wire and a heat ray detection unit that performs detection of the condensing and human body through a heat ray focusing means, of the hot wire detection unit In a wireless heat ray sensor transmitter comprising a signal processing unit for converting an output into a wireless signal and transmitting it, and a battery as a power source, a long cylindrical main body case for housing the heat ray detection unit and the battery and the main body case And a fixture that supports a lower end that is one end side of the elongated cylindrical main body case, and a state in which the lower end of the main body case is supported by the support piece. has a pair of holding pieces for gripping from the side of the main body case so as to be rotatable body casing in the longitudinal direction of the axial center, protrusion and formed to protrude from the inner surfaces of the pair of gripping pieces, the The long cylindrical body A plurality of grooves are formed on the outer peripheral side surface so as to be engaged with the protrusions while being attached to the fixture, and according to an external force for rotating the main body case about its longitudinal axis. It is characterized that you have a structure in which repeating the withdrawal occlusal with said projection.
[0010]
In this configuration, a heat ray detection part that collects light via a heat ray condensing means and detects a human body and the like, and a long cylindrical main body case in which a battery serving as a power source is accommodated are gripped from the side surface, It is formed so as to be rotatable about its longitudinal axis.
[0011]
Then, the body case, a fixture for gripping the main body case so as to be vertically long, is placed is supported by the support pieces in a state of upright.
[0012]
Moreover, it is preferable to arrange | position the said heat ray detection part and a battery in a longitudinal direction in the said main body case. In this case, the heat ray detector and the battery are arranged in a row in the longitudinal direction of the main body case.
[0013]
The main body case has a substantially cylindrical shape, the battery has a substantially columnar shape, and the circuit board forming the signal processing unit is a three-dimensional board material having a substantially arc-shaped cross section, and the circuit board is disposed outside the battery. It is preferable to do this. In this case, the circuit board is bent so as to circulate according to the battery, and is accommodated along the inside of the main body case.
[0014]
Moreover, it is preferable that the said heat ray detection part is isolate | separated from the said circuit board, and the mutual is connected via an internal electric wire. In this case, the heat ray detection unit is separated from the circuit board, and is connected to each other via the internal electric wire and arranged in the longitudinal direction of the main body case.
[0015]
It is also preferable to provide the signal processing unit on the fixture . In this case, the circuit board that forms the signal processing unit is provided on a fixture that grips the main body case from the side surface side.
[0016]
Moreover, it is preferable that the said main body case has an opening for replacing | exchanging a battery in a longitudinal direction end surface, and arrange | positions a battery cover in the opening. In this case, the battery cover is provided on the end surface in the longitudinal direction of the main body case.
[0017]
Moreover, it is preferable to arrange | position the said heat ray detection part so that the said heat ray condensing means may protrude from the outer peripheral surface of the said main body case. In this case, the heat rays radiated from the human body or the like are condensed through the heat ray condensing means protruding from the outer peripheral surface of the main body case.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
1 to 5 show a first embodiment of the present invention, and FIGS. 6 and 7 show a second embodiment showing an example in which a signal processing unit is provided on a fixture .
[0019]
[First Embodiment]
FIG. 1 is an explanatory view showing an external appearance of a wireless heat ray sensor transmitter according to an embodiment of the present invention, FIG. 2 is an explanatory view showing an entire system configuration including the wireless heat ray sensor transmitter, and FIG. 4 is an explanatory diagram showing the structure of the main body case of the wireless heat ray sensor transmitter, FIG. 4 shows a schematic configuration of the wireless heat ray sensor transmitter, (A) is an overall block diagram, and (B) is a partial block diagram of a heat ray detector. FIG. 5 shows an explanatory view showing another embodiment of the wireless heat ray sensor transmitter.
[0020]
The wireless heat ray sensor transmitter 1 according to this embodiment includes a heat ray detection unit 40 that collects heat rays emitted from a human body or the like via a heat ray condensing unit and detects the human body and the like, and an output of the heat ray detection unit 40 the signal processing unit 50 for transmitting a signal into a wireless signal, and a battery 6 as a power supply, houses the heat ray sensing unit 40 to the main body case 3 together elongated tubular and the battery 6, the main body The case 3 is gripped from the side so as to be rotatable about its longitudinal axis.
[0021]
Specifically, as shown in FIG. 2, the wireless heat ray sensor transmitter 1 has a function of wirelessly transmitting a human body detection signal to a wireless receiver 9 separately installed in a room or the like. The main body case 3 is provided with a case 3, and further includes a circuit board 5 and a battery 6 that form a heat ray detection unit 40 and a signal processing unit 50.
[0022]
The wireless receiver 9 receives a detection signal from the wireless heat ray sensor transmitter 1 by the receiving antenna 91 and generates a melody or the like from a built-in sound generator, so that the presence or entry of a human body or other objects is present. And the like.
[0023]
Fixture 2 is in this case formed of synthetic resin material such as ABS resin, gripping members 22 and 22 from a direction opposite edges of the mounting substrate 21 having a substantially flat rectangular shape by bending the front side for collision A substantially plate-like support piece 23 is provided at one end of the mounting substrate 21 in the other direction orthogonal to the one direction to support the lower end of the main body case 3 to be described later. In addition, as for the space | interval of the said holding | grip pieces 22 and 22, the curved inner dimension is provided substantially the same as the diameter of the main body case 3 so that the main body case 3 mentioned later can be clamped between them. Therefore, as shown in FIG. 2, the main body case 3 can be installed stably and supported by the support piece 23 in an upright state with respect to the fixture 2 so as to be vertically long. In addition, two attachment holes 25 for attaching the wireless heat ray sensor transmitter 1 to a building are formed in the attachment substrate 21 in the longitudinal direction. Further, protrusions 24 and 24 for positioning and fixing the main body case 3 are attached to the inside of the gripping pieces 22 and 22 in the vertical direction.
[0024]
The main body case 3 accommodates the heat ray detector 40, the battery 6 and the circuit board 5, and in this case, is a substantially cylindrical body formed of a synthetic resin material such as ABS resin, and will be described later on its longitudinal end face. The battery lid 7 is disposed and has an opening to be fitted. A plurality of grooves 31 corresponding to the protrusions 24 provided on the gripping piece 22 are provided on the outer peripheral side surface of the one end side supported by the support piece 23 of the main body case 3 over substantially ¾ circumference. A small opening that exposes the heat ray detection unit 40 is formed on the outer peripheral other end side that is the front side without 31. Therefore, the main body case 3 is gripped from the side by the gripping pieces 22 and 22 of the fixture 2, positioned by the protrusion 24 and the groove 31, and rotated about the longitudinal axis.
[0025]
The heat ray detection unit 40 and the battery 6 are arranged in the longitudinal direction inside the main body case 3, and a circuit board 5 (described later) is bent so as to wind the battery 6. It is disposed along the inner wall of the case 3. In addition, the said battery cover 7 can also be formed in the side surface side in which the said groove | channel 31 was provided other than said longitudinal direction end surface.
[0026]
The heat ray detection unit 40 detects infrared rays emitted from the human body passing through the detection area on the front side thereof and outputs a human body detection signal to the signal processing unit 50. In this case, a lens corresponding to the heat ray condensing unit 41, one pyroelectric element 42, and a detection circuit unit 43 that processes an output signal from the pyroelectric element 42 are integrated into one unit. And it connects to the circuit board 5 mentioned later via an internal electric wire.
[0027]
As shown in FIG. 4B, the detection circuit unit 43 amplifies an input signal from the pyroelectric element 42, and removes noise components from the output signal from the amplification circuit 431, thereby reducing a predetermined frequency band. A filter circuit 432 that passes the signal, a comparison circuit 433 that compares an output signal from the filter circuit 432 with a predetermined threshold, and an output circuit 434 that uses the output signal from the comparison circuit 433 as a detection signal of a predetermined voltage. It has. And the input signal from the pyroelectric element 42 is processed, and a human body detection signal is output toward the signal processing part 50 of the circuit board 5 mentioned later.
[0028]
The lens 41 is a part of the case of the unit made of polyethylene resin, and is a multi-lens having a dome shape as shown in FIG. The lens 41 is disposed so as to protrude from the outer peripheral surface of the main body case 3 in order to detect heat rays in a wide-angle area.
[0029]
Circuit board 5, in this case, a flexible printed circuit board bendable to a substantially arc-shaped as a three-dimensional substrate material as shown in FIG. 3, a signal analyzer 5 1 for processing the output from the hot wire detector 40, the signal constitute the signal processing unit 50 is implemented formed by the signal output of the analysis unit 5 1 a signal transmission unit 5 2 wirelessly transmits. And the human body detection signal which detected the presence or absence of the human body etc. in the monitoring space formed in the heat ray detection part 40 to the wireless receiver 9 mentioned above is radio-transmitted with the electromagnetic wave with a predetermined frequency.
[0030]
Signal analyzing unit 5 1, based on the output from the hot wire detector 40 determines whether to send the information to the wireless receiver 9, and outputs the determination result to the signal transmission unit 5 2. The signal transmitting unit 5 2, the output signal from the signal analyzing unit 5 1 wirelessly transmits a predetermined radio wave by the transmitting antenna 503. In this case, the transmitting antenna 503 is constituted by a circuit pattern provided on the circuit board 5 and is formed with a small space. The transmitting antenna 503 can be realized by various configuration methods such as a metal plate in addition to the pattern.
[0031]
The battery 6 is a power source that constantly supplies a voltage to each of the circuit units. In this case, the battery 6 is formed of an AA dry battery. The battery 6 is housed substantially in a cylindrical housing portion 71 integrally formed with the battery cover 7 to be described later, the battery lid 7 is accommodated in the main body case 3. Further, the battery 6 and the circuit board 5 are electrically connected by a metal connection terminal 8.
[0032]
The battery cover 7 is, in this case, is formed at the widthwise cross section and the same circular lid 7 2 one side opening substantially cylindrical housing portion 71 is integrated with one surface of the tubular body of the body casing 3 , the proximal end of the housing portion 71 is fitted into the opening of the longitudinal end surface of the main body case 3. Further, the battery lid 7, the housing section 71 is attached to the main body case 3 are inserted inside the circuit board 5 in the main body case 3. That is, with this configuration, the battery 6, the housing portion 7 1 , the circuit board 5, and the main body case 3 are coaxially arranged, and no extra space is generated. Further, at be adhered more mutually concave pattern or the like at the proximal end of the housing portion 71, intrusion of water or the like into the inside the main body case 3 is also possible to prevent and improve also usability outdoors.
[0033]
Incidentally, when replacing the battery 6, the battery lid 7 to disengage the battery cover 7 by sliding each said housing section 71 from the main body case 3, a battery 6 that is accommodated in the housing section 7 in 1 Take out. Therefore, battery replacement is also facilitated. Further, in the configuration in which the battery cover 7 is provided on the end surface in the longitudinal direction of the main body case 3, the grip piece 22 for rotating the main body case 3 around the longitudinal axis or the groove 31 on the side surface of the main body case 3 is provided. It can be formed in a more effective position and can be stably rotated.
[0034]
Next, an attachment mode of the wireless heat ray sensor transmitter according to the first embodiment having the above-described configuration will be described. When the wireless heat ray sensor transmitter 1 is installed, first, the mounting tool 2 is screwed into a pair of upper and lower mounting holes 25 in the center of the mounting board 21 so that the mounting board 21 is installed. Is fastened to a wall or the like and fixed.
[0035]
Next, the main body case 3 of the wireless heat ray sensor transmitter 1 is inserted into the space between the gripping pieces 22 and 22 of the fixture 2 from above in a state where the longitudinal direction of the cylinder is vertically matched. (See FIG. 1) . At this time, the main body case 3 is inserted to a position supported by the support piece 23 of the fixture 2, and when the main body case 3 is inserted to a predetermined position, the groove 31 and the gripping piece 22 on the side surface of the main body case are inserted. The protrusions 24 of the bite engage. Thereby, the main body case 3 is rotated about the axis, can be fixed at an appropriate position, and the heat ray detector 40 provided in the main body case 3 can be adjusted to face a desired direction.
[0036]
Further, the wireless heat ray sensor transmitter 1 can be installed so as to form a substantially lateral detection region along the opening at a substantially central position on the side of the opening of a building such as a window. Therefore, even if a small animal or the like passes just below the opening, erroneous operation can be reduced without erroneous detection. That is, by installing this wireless heat ray sensor transmitter 1 vertically on the side of a building opening such as a window or the like, only the passage of a human body or the like is detected. There is no need for a configuration for eliminating detection of a small animal or the like passing directly under the opening using a configuration using an electric element.
[0037]
Therefore, according to the wireless heat ray sensor transmitter 1 described above, a long tubular main body in which the heat ray detection unit 40 that collects light via the heat ray condensing means and detects a human body and the battery 6 that serves as a power source are accommodated. Since the case 3 is gripped from the side by the groove 31 of the main body case 3 and the protrusions 24 of the gripping pieces 22 and 22 and is formed so as to be rotatable about its longitudinal axis, it has a simple structure. The detection area can be adjusted by reducing the overall shape.
[0038]
The main body case 3 is gripped from the side so as to be vertically long by the gripping piece 22 that grips it, and is supported from below by the support piece 23 that supports it, so that it is supported more stably, Moreover, by supporting the body in an upright shape, detection of small animals and the like can be eliminated by one pyroelectric element 42, and the main body case 3 can be further downsized.
[0039]
Further, the circuit board 5 and the battery 6 are accommodated in the main body case 3 without wasting space by bending the circuit board 5 according to the battery shape and winding the battery 6. Further, in the main body case 3, the heat ray detection unit 40 and the battery 6 are arranged in the longitudinal direction, and the heat ray detection unit 40 is separated from the circuit board 5 and connected to the circuit board 5 through an internal electric wire. As a result, the outer diameter of the main body case 3 can be formed to be thinner, and thus the body case 3 can be formed to be smaller.
[0040]
Further, the main body case 3 is provided with an opening for replacing the battery in the longitudinal end face, and the battery cover 7 is fitted into the opening, so that the main body case 3 can be stably rotated. Battery replacement is also easy. Furthermore, the heat ray detection part 40 is arrange | positioned so that it may protrude from the main body case 3, and can detect the heat ray of a wide angle area.
[0041]
Note that the wireless heat ray sensor transmitter 1 of the present invention is provided with positioning ribs 27 around the support piece 23 in addition to the one shown in the above description, for example, as shown in FIG. Needless to say, the present invention includes various embodiments such as a configuration in which the attachment 2 is formed by narrowing the width of the attachment 2 and the body case 3 is inserted from the front side of the attachment 2.
[0042]
[Second Embodiment]
FIG. 6 is an explanatory view showing the structure of the mounting portion of the wireless heat ray sensor transmitter of the second embodiment, and FIG. 7 is an explanatory view showing the structure of the main body case of the wireless heat ray sensor transmitter.
[0043]
The wireless heat ray sensor transmitter of this embodiment is different from that of the first embodiment only in the configuration of the fixture 2, and the other components are the same as those of the first embodiment. In the wireless heat ray sensor transmitter 1 of the embodiment, the signal processing unit 50 is provided on the fixture 2 side.
[0044]
That is, the mount 2 in this embodiment, by attaching a rear cover 28 on the back side of the mounting substrate 21, and Tsu Na provided a cavity therebetween, mounting and transmitting antenna 503 described above therein The circuit board 5 ′ provided with the signal processing unit 50 is disposed. In this case, as shown in FIG. 7, the circuit board 5 ′ is electrically connected to the connection tool 26 disposed in the approximate center of the support piece 23 by an internal electric wire, and is connected via the connection tool 26. A power source and a human body detection signal are input from the heat ray detection unit 40 and the battery 6 inside the main body case 3 of the wireless heat ray sensor transmitter 1.
[0045]
Therefore, according to the wireless heat ray sensor transmitter 1 described above, since the circuit board 5 ′ forming the signal processing unit 50 is provided on the side of the fixture 2 that grips the main body case 3 from the side surface side, the size can be further reduced. The wireless heat ray sensor transmitter 1 becomes less noticeable.
[0046]
【The invention's effect】
The present invention is implemented as in the above-described embodiment, and in the wireless heat ray sensor transmitter according to claim 1, the heat ray detection unit, the signal processing unit, and the battery are all housed in a long cylindrical main body case. The body case is gripped from the side so that it can rotate about its longitudinal axis, so that the overall shape can be miniaturized and the detection area can be adjusted with a simple structure. Can do. Further, the main body case is supported more stably because it is supported by the support piece in an upright shape on a fixture that holds the main body case so as to be vertically long.
[0048]
Moreover, in the wireless heat ray sensor transmitter according to claim 2 , since the heat ray detection part and the battery are arranged in the longitudinal direction of the main body case, the outer diameter of the main body case can be formed thinner.
[0049]
Further, in the wireless heat ray sensor transmitter according to claim 3 , since the heat ray detection part and the signal processing part are arranged on the circuit board and bent so as to circulate according to the battery shape, the battery and each part Is accommodated in the main body case without waste.
[0050]
Moreover, in the wireless heat ray sensor transmitter according to claim 4 , the heat ray detection part is separated from the circuit board and connected to each other via an internal electric wire, and the outer diameter of the main body case is further increased. It can be formed thin, and thus can be formed smaller.
[0051]
Further, in the wireless heat ray sensor transmitter according to claim 5 , since the circuit board forming the signal processing unit is provided on the fixture for gripping the main body case from the side surface side, the wireless heat ray sensor can be further reduced in size. The transmitter is less noticeable.
[0052]
In the wireless hot-wire sensor transmitter according to claim 6 , since the battery cover is provided on the longitudinal end surface of the main body case, the main body case can be stably rotated, and battery replacement is easy. It becomes.
[0053]
Moreover, in the wireless heat ray sensor transmitter according to claim 7, since the heat rays emitted from the human body or the like are condensed through the heat ray condensing means protruding from the outer peripheral surface of the main body case, the wide-angle area Can detect heat rays.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram showing an appearance of a wireless heat ray sensor transmitter according to a first embodiment of the present invention.
FIG. 2 is an explanatory diagram showing an overall system configuration including the wireless heat ray sensor transmitter.
FIG. 3 is an explanatory view showing a structure of a main body case of the wireless heat ray sensor transmitter.
FIG. 4 shows a schematic configuration of the wireless heat ray sensor transmitter, wherein (A) is an overall block diagram, and (B) is a partial block diagram of a heat ray detection unit.
FIG. 5 is an explanatory view showing another embodiment of the wireless heat ray sensor transmitter.
FIG. 6 is an explanatory diagram showing a structure of an attachment portion of a wireless heat ray sensor transmitter according to a second embodiment of the present invention .
FIG. 7 is an explanatory diagram showing a structure of a main body case of the wireless heat ray sensor transmitter.
8A and 8B show a wireless heat ray sensor transmitter as a conventional example of the present invention, in which FIG. 8A is a side sectional view and FIG. 8B is a front sectional view.
FIG. 9 is an explanatory diagram showing an overall configuration of the wireless heat ray sensor transmitter.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Wireless heat ray sensor transmitter 2 Attaching tool 3 Main body case 40 Heat ray detection part 5, 5 'circuit board 50 Signal processing part 6 Battery 7 Battery cover 22 Holding piece 23 Support piece

Claims (7)

Wireless equipped with a heat ray detector that collects heat rays via a heat ray collector and detects the human body, a signal processor that converts and outputs the output of the heat ray detector to a wireless signal, and a battery that serves as a power source In the hot wire sensor transmitter,
A long cylindrical main body case that houses the heat ray detection unit and the battery , and a fixture to which the main body case is attached ,
The fixture support piece and its longitudinal axis centered on the main body case while supporting the lower end of the main body case by the support pieces for supporting the lower end which is one end side of the long cylindrical body case A pair of gripping pieces gripped from the side surface side of the main body case so as to be freely rotatable, and a protrusion formed to project from the inner side surface of the pair of gripping pieces ,
The long cylindrical body case, on the outer peripheral side surface, wherein the projection and occlusal groove in a state of being mounted to the fixture is formed with a plurality, rotating the body case in the longitudinal direction of the shaft center A wireless heat ray sensor transmitter having a structure that repeats occlusion and detachment between the groove and the protrusion according to an external force. The wireless heat ray sensor transmitter according to claim 1, wherein the heat ray detection unit and the battery are arranged in the longitudinal direction in the main body case. The main body case has a substantially cylindrical shape, the battery has a substantially columnar shape, and the circuit board forming the signal processing unit is a three-dimensional board material having a substantially arc-shaped cross section, and the circuit board is disposed outside the battery. Item 3. A wireless heat ray sensor transmitter according to item 1 or 2. The wireless heat ray sensor transmitter according to claim 3, wherein the heat ray detection unit is separated from the circuit board and connected to each other via an internal electric wire. The wireless heat ray sensor transmitter according to claim 1, wherein the signal processing unit is provided in the fixture. The wireless main body sensor transmitter according to any one of claims 1 to 5, wherein the main body case has an opening for replacing the battery in a longitudinal end face, and a battery lid is disposed in the opening. . The wireless heat ray sensor transmitter according to any one of claims 1 to 6, wherein the heat ray detection unit is arranged so that the heat ray condensing unit protrudes from an outer peripheral surface of the main body case.

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